about
SILVA: a comprehensive online resource for quality checked and aligned ribosomal RNA sequence data compatible with ARBGraphical representation of ribosomal RNA probe accessibility data using ARB software package.MiL-FISH: Multilabeled Oligonucleotides for Fluorescence In Situ Hybridization Improve Visualization of Bacterial Cells.Practical application of self-organizing maps to interrelate biodiversity and functional data in NGS-based metagenomics.Modification of a High-Throughput Automatic Microbial Cell Enumeration System for Shipboard AnalysesPotential interactions of particle-associated anammox bacteria with bacterial and archaeal partners in the Namibian upwelling systemA microdiversity study of anammox bacteria reveals a novel Candidatus Scalindua phylotype in marine oxygen minimum zones.The photosynthetic apparatus and its regulation in the aerobic gammaproteobacterium Congregibacter litoralis gen. nov., sp. nov.Distinct flavobacterial communities in contrasting water masses of the north Atlantic Ocean.Bacterioplankton diversity and community composition in the Southern Lagoon of Venice.Temporal variability of coastal Planctomycetes clades at Kabeltonne station, North SeaBacterioplankton compositions of lakes and oceans: a first comparison based on fluorescence in situ hybridization.Internal and external influences on near-surface microbial community structure in the vicinity of the Cape Verde Islands.Seasonal dynamics and modeling of a Vibrio community in coastal waters of the North Sea.Microbial community response during the iron fertilization experiment LOHAFEX.Clone libraries and single cell genome amplification reveal extended diversity of uncultivated magnetotactic bacteria from marine and freshwater environments.Stable composition of the nano- and picoplankton community during the ocean iron fertilization experiment LOHAFEX.High abundance of novel environmental chlamydiae in a Tyrrhenian coastal lake (Lago di Paola, Italy).Colonization in the photic zone and subsequent changes during sinking determine bacterial community composition in marine snowComparison of bacterial communities on limnic versus coastal marine particles reveals profound differences in colonization.The effect of nutrients on carbon and nitrogen fixation by the UCYN-A-haptophyte symbiosis.Diversity and abundance of aerobic and anaerobic methane oxidizers at the Haakon Mosby Mud Volcano, Barents SeaPolysaccharide utilisation loci of Bacteroidetes from two contrasting open ocean sites in the North Atlantic.Flow cytometric sorting of fecal bacteria after in situ hybridization with polynucleotide probes.Contrasting extracellular enzyme activities of particle-associated bacteria from distinct provinces of the North Atlantic Ocean.Recurring patterns in bacterioplankton dynamics during coastal spring algae blooms.Ubiquitous Gammaproteobacteria dominate dark carbon fixation in coastal sediments.Single-cell identification in microbial communities by improved fluorescence in situ hybridization techniques.Chlamydial seasonal dynamics and isolation of 'Candidatus Neptunochlamydia vexilliferae' from a Tyrrhenian coastal lake.Unlabeled helper oligonucleotides increase the in situ accessibility to 16S rRNA of fluorescently labeled oligonucleotide probes.Genomic and physiological analyses of 'Reinekea forsetii' reveal a versatile opportunistic lifestyle during spring algae blooms.The small unicellular diazotrophic symbiont, UCYN-A, is a key player in the marine nitrogen cycle.Phylogenetic characterisation of picoplanktonic populations with high and low nucleic acid content in the North Atlantic Ocean.Latitudinal distribution of prokaryotic picoplankton populations in the Atlantic Ocean.Flow cytometric analysis of the in situ accessibility of Escherichia coli 16S rRNA for fluorescently labeled oligonucleotide probes.Comparison of cellular and biomass specific activities of dominant bacterioplankton groups in stratified waters of the Celtic SeaDepth related amino acid uptake by Prochlorococcus cyanobacteria in the Southern Atlantic tropical gyre.In situ accessibility of Saccharomyces cerevisiae 26S rRNA to Cy3-labeled oligonucleotide probes comprising the D1 and D2 domains.Is the in situ accessibility of the 16S rRNA of Escherichia coli for Cy3-labeled oligonucleotide probes predicted by a three-dimensional structure model of the 30S ribosomal subunit?An alternative polysaccharide uptake mechanism of marine bacteria.
P50
Q24685829-8A7DC14F-D31D-40D0-B4BF-6011400281C3Q24811507-4C82AD6D-966C-416A-BA7E-6611B7C1F2C6Q27323233-2667E82D-9B81-4042-8FFF-9583FCFCC04FQ30500792-E2599380-E00C-4D48-AFC1-9F38E185A0CBQ30788886-48DF0A18-1D4B-4C23-924C-BC47675FA338Q33285812-A83EF9B0-DCF2-46DA-A05C-9C3C45373D91Q33338603-D784F81B-A83E-457C-8927-F43C7875FE3BQ33418296-F2509D9E-6DBC-4E42-82FF-2CC1B8216BE6Q33522376-67CF4F2B-F41D-45CD-8E5A-D6F127BACC86Q33540576-A755334A-C512-43A3-827A-762426E94ACAQ33923209-6DD70282-3DF0-4B36-B497-3952527034FFQ33985686-A29866F3-A337-4EA3-93CD-AD63646880B4Q34047422-63305DF4-5CEA-473C-8B06-2204408D3761Q34112749-BBA1B078-6177-4207-A6BA-A93070BDC048Q34445040-6E6C2E96-B2D2-4B65-9A22-494ECAF41FFCQ34459341-A9981A00-53E6-4B3B-AD84-810C3EEF30FCQ34526847-996F653C-D28F-43B3-9978-8C0F31254F36Q34768991-292DFB95-26E5-4824-89D2-AAF776378CA6Q35023965-9E7D0A6B-EABD-44B6-8E38-6382ABB4A853Q35132904-54FD125F-C44B-47DD-841A-F9B8D045317FQ35774492-3C037855-9860-453C-BD6F-8B6AFF3C06BFQ35869669-8D037BAA-F1D6-43E1-9272-0CD798B21216Q36062536-32EB81A5-C852-4224-B5EB-90DBFF9C5315Q36143914-2EBCB339-0978-464D-ADF7-681B37CD801EQ36463681-8C1D3563-D1EE-4D6E-83FB-B102E44B51B8Q36791930-E87D631C-4330-4110-BCE3-C0F398BF7CAEQ36916603-A7380254-1D4F-427B-AD42-FCE2A94AB3C9Q37139309-75FD12E6-0CC8-4615-AA14-7FC6303215B3Q37838586-7CE57FB4-FF8A-49B4-967F-47D3F49A3AD8Q38309930-29B9C3D0-3760-492E-8747-42360A42D011Q39078609-42B9ED36-9441-4200-8E51-21FB279087B1Q39220957-36F86B9A-1D45-4080-915C-A82768F76EBAQ39435335-4A07DEE1-C161-4839-BDC9-C0D875B37BBBQ39435342-F4436F8B-A7D2-42D6-9E35-82F2BD03C6E5Q39479679-97239B6D-B54F-4688-9234-53A0A8DF356DQ39493231-AA0E3A50-54D0-4890-82C3-9C322C881D4EQ39634085-55F6BB52-54E6-4604-9647-93D218133039Q39750634-0BA4AA77-48F8-4AF9-882D-5E2C52DEE5FBQ39805004-22CA659A-9A67-4FB5-B49D-1952F9F40BECQ42335296-EC077395-5DCB-41B8-B9F9-F00064819483
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Bernhard M Fuchs
@ast
Bernhard M Fuchs
@en
Bernhard M Fuchs
@es
Bernhard M Fuchs
@nl
Bernhard M Fuchs
@sl
type
label
Bernhard M Fuchs
@ast
Bernhard M Fuchs
@en
Bernhard M Fuchs
@es
Bernhard M Fuchs
@nl
Bernhard M Fuchs
@sl
prefLabel
Bernhard M Fuchs
@ast
Bernhard M Fuchs
@en
Bernhard M Fuchs
@es
Bernhard M Fuchs
@nl
Bernhard M Fuchs
@sl
P106
P21
P31
P496
0000-0001-9828-1290